KR101364015B1 - A raw material supply ayatem of foaming machine - Google Patents

Abstract

The present invention relates to a material supply device for a foam molding machine. The device includes: a material supply control unit which comprises a body which has a hollow unit connecting first and second coupling units formed in the front and rear, a material input unit which is formed on one side of the body and supplies materials, an air supply installation hole which is formed on the body and connects to the hollow unit, and an inner tube which connects to the hollow unit of the body, communicates with the air supply installation hole, and has an opening and closing controller in the front thereof; an injection unit which is coupled to the first coupling unit of the material supply control unit, has a passage channel between the inner tube and an outer tube, has an entrance connected to a passage, and has an inclined surface of which opening and closing is controlled by the opening and closing controller inside the entrance connected to the passage; and a cylinder unit which comprises a cylinder body which is installed in the second coupling unit of the material supply control unit and communicates with the hollow unit of the body, a piston installed inside the cylinder body, and a rod which has a head which is connected to the piston, moves through the hollow of the inner tube, and opens and closes the injection unit.

Description

A raw material supply ayatem of foaming machine

The present invention relates to a raw material supply device for a foam molding machine, and more specifically, to control the separation space between the inclined portion of the opening and closing control unit and the inclined surface of the injection portion can control the intensity of the pressure ejected through the inlet of the injection portion, air supply Even if a certain amount of air flows through the installation hole, it is possible not only to smoothly inject powder raw materials, but also to make the opening and closing adjustment mechanism screwed into the inner tube to facilitate manufacturing, installation and maintenance. It relates to the raw material supply device of the foam molding machine that can achieve the backward operation of the piston and the supply of powder raw material only by the supplied air, and can be fixedly fixed to the cylinder portion in place through the tightening ring.

In general, the foam molding apparatus fills a mold formed of a pair of molds with thermoplastic resin particles, and then heats the foamed particles filled in the mold by a heating medium to fuse the particles together so that the same molding as the mold is manufactured. do.

At this time, by supplying the raw material to the mold installed in the frame of the foam molding apparatus, the raw material is introduced into the mold and fixed, and the raw material is injected into the mold while the cylinder rod is advanced by the operation of the cylinder. do.

Such a conventional raw material supply apparatus includes a supply unit in which a supply pipe for supplying a raw material to a mold is installed, an injection unit for adjusting the amount of raw material when the raw material supplied to the supply unit is introduced into the mold, and a raw material filled in the injection unit. It consists of a cylinder which presses and supplies it to a metal mold | die.

Such a conventional technology can be confirmed through the cylinder for the raw material supply device, which is "Registered Patent No. 10-1211174" filed by the representative of the present applicant.

In addition, when manufacturing a foamed molded article using the conventional raw material supply device cylinder as described above, using an EPS (Expanded polystyrene) powder raw material used to produce a typical styrofoam, the product produced using the EPS powder raw material is a powder Since the raw material is light, there is a problem of not only breaking when bending, but also receiving environmental regulations.

Therefore, in recent years, as well as not subject to environmental regulations, the trend is to use EPP (Expanded Polypropylene) powder raw materials that do not break even.

However, the conventional technique described above has a problem in that the powder material is not properly injected through the injection part when the EPP powder raw material having a large weight is fixed because the position of the inner cylinder installed inside the injection part is fixed.

That is, when using a large weight of EPP powder raw material, there is a problem in that the filling failure can not be properly injected into the mold mold with a constant amount of air supplied constantly.

Thus, the present applicant has developed a raw material supply device for a foam molding machine capable of properly injecting a heavy weight powder raw material into a mold by varying the position of the inner cylinder installed in the injection section.

The raw material supply device of the foam molding machine of the present invention is to be ejected through the inlet of the injection portion by adjusting the space between the opening and closing control port and the inclined surface of the injection portion configured to rotate the raw material supply control unit that is screwed with the injection portion Since the strength of the pressure of the air can be adjusted, it is an object of the present invention to smoothly inject the powder raw material even when a constant amount of air is introduced through the air supply installation hole.

In addition, the present invention can easily achieve the manufacturing, installation and maintenance by configuring the opening and closing adjustment mechanism screwed to the end of the inner tube, it is easy to inject the powder raw material through the inclined portion having a shape corresponding to the inclined surface of the inlet. It is an object of the present invention to provide a raw material supply apparatus for a foam molding machine.

In addition, the present invention is because the cylinder body is coupled to the raw material supply control unit is in communication with the hollow portion of the body to make the reverse operation of the piston only by the air supplied to the air supply installation hole to open the injection unit, as well as powder fuel It is an object of the present invention to provide a raw material supply device for a foam molding machine that can achieve the supply of.

In addition, the present invention constitutes a fastening ring that is in close contact with the raw material supply control unit in a screw-coupled state to the cylinder part, so that the cylinder part can be firmly installed in the fixed position even in the rotational movement of the cylinder part due to the rotational movement of the raw material supply control unit. An object of the present invention is to provide a raw material feeder for a foam molding machine.

The present invention for achieving the above object is formed in the body consisting of a hollow portion connecting the first, second coupling portion formed in the front, rear, the raw material inlet is formed on one side of the body to supply the raw material, A raw material supply control unit comprising an air supply installation hole connected to the hollow part, and an inner tube configured to be coupled to the hollow part of the body to communicate with the air supply installation hole and constitute an opening and closing control unit at the front; It is installed coupled to the first coupling portion of the raw material supply control unit to form a moving passage between the inner circumference and the inner tube, the inlet is formed in communication with the moving passage in the front, inside the inlet connected to the moving passage in the opening and closing control Injecting portion is formed inclined surface is controlled by opening and closing amount; A cylinder body coupled to the second coupling part of the raw material supply control unit to communicate with the hollow part of the body, a piston installed inside the cylinder body, and connected to the piston to be moved through the hollow of the inner pipe It provides a raw material supply device for the foam molding machine characterized in that the configuration; the cylinder portion consisting of a rod formed with a head for opening and closing the portion.

When the raw material supply device of the foam molding machine of the present invention is used, the inlet of the injection part is controlled by rotating the raw material supply control part which is screwed with the injection part by adjusting the space between the opening / closing control part configured in the inner tube and the inclined surface of the injection part. Since it is possible to adjust the strength of the pressure of the air is ejected through, there is an advantage that can smoothly inject the powder raw material even if a constant amount of air is always introduced through the air supply installation hole.

In addition, the present invention can easily achieve the manufacturing, installation and maintenance by configuring the opening and closing adjustment mechanism screwed to the end of the inner tube, it is easy to inject the powder raw material through the inclined portion having a shape corresponding to the inclined surface of the inlet. There is an advantage that can be achieved.

In addition, the present invention is because the cylinder body is coupled to the raw material supply control unit is in communication with the hollow portion of the body to make the reverse operation of the piston only by the air supplied to the air supply installation hole to open the injection unit, as well as powder fuel There is an advantage that can supply at the same time.

In addition, the present invention constitutes a fastening ring that is in close contact with the raw material supply control unit in a screw-coupled state to the cylinder part, so that the cylinder part can be firmly installed in the fixed position even in the rotational movement of the cylinder part due to the rotational movement of the raw material supply control unit. It is a useful invention.

1 is a perspective view showing a raw material supply apparatus of the foam molding machine of the present invention.
Figure 2 is an exploded perspective view showing a raw material supply apparatus of the foam molding machine of the present invention.
Figure 3 is an exploded cross-sectional view showing a raw material supply device of the foam molding machine of the present invention.
Figure 4a is a cross-sectional view showing a state in which the inlet is closed by supplying air through the air supply hole of the present invention.
Figure 4b is a cross-sectional view showing a state in which air is supplied through the air supply installation hole of the present invention and the injection portion is opened and at the same time the raw material is supplied.
Figure 5a is a cross-sectional view showing a state in which the space control space between the opening and closing control opening and the inclined surface by changing the length of the electric field by rotating the raw material supply control unit or the injection unit of the present invention.
Figure 5b is a state in which the distance between the inlet and the head of the injection portion is adjusted to the initial state by adjusting the length of the electric field changed by the rotation operation of the cylinder portion of the present invention to the initial state.
6 is an enlarged cross-sectional view of portion A of FIG. 4b.
FIG. 7 is an enlarged cross-sectional view of portion B of FIG. 5A; FIG.

Hereinafter, the structure of the present invention will be described.

The present invention relates to a raw material supply device 100 of a foam molding machine for injecting powder raw material into a mold (not shown) through the supply of air and the operation of the cylinder, as shown in Figures 1 to 5 The part 50, the injection part 60, and the cylinder part 70 are comprised.

First, the raw material supply control unit 50 is a configuration for injecting the powder raw material supplied into the mold frame, the body 10, the raw material inlet 20, the inner tube 30, the supply installation hole 40 It is composed.

First, the body 10 of the raw material supply control unit 50 is configured to couple and install the injection unit 60 and the cylinder unit 70, respectively, the first coupling unit is screwed in front of the injection unit 60 (11) is formed with a female screw in the front inner side of the body 10, the rear is formed with a female screw in the rear inner side of the body 10, the second coupling portion 12 is screwed to the cylinder portion 70, the inside The hollow portion 13 which connects and communicates with the first and second coupling parts 11 and 12 is configured.

In addition, the raw material inlet 20 of the raw material supply control unit 50 is formed on one side of the body 10 so that the raw material is supplied, and forms an oblique inclination for easy supply of the raw material, the conventional connecting pipe Can be combined.

In addition, the air supply installation hole 30 of the raw material supply control unit 50 is a hole formed in the body to be connected to the hollow portion of the body 10, the normal air supply member (not shown) is fastened to supply the raw material A female screw is formed to supply air into the adjusting unit 50.

In addition, the inner tube 40 of the raw material supply control unit 50 is a hollow tube which is coupled to the hollow portion 13 of the body 10 and protrudes forward, and installs an air supply connected to the hollow portion 13. The through-holes are formed so as to communicate with each other so that the air is supplied to the inside of the inner tube 40, and the opening and closing adjustment hole 45 is configured at the front thereof.

Here, the opening and closing adjustment hole 45 is preferably configured to be separated and coupled to the inner tube 40 for ease of manufacture and installation and maintenance, such a configuration, the male screw on the front end of the inner tube (40). (41) can be easily formed by forming an internal thread (47) corresponding to the external thread (41) in the inner diameter of the opening and closing control opening (45).

Therefore, by separating the opening and closing control unit 45 and the inner tube 40 can be easily manufactured separately, and can be easily installed through the screw connection, and easily separated in the event of breakage and cracks to achieve a convenient and quick maintenance It becomes possible.

Second, the injection unit 60 is installed to be coupled to the first coupling portion 11 of the raw material supply control unit 50 to form a moving passage 61 between the inner circumference and the inner tube 30, the first coupling A male screw threaded to the first coupling portion 11 is formed at the rear for coupling with the portion 11.

In addition, an inlet 65 communicating with the moving passage 61 is formed in front of the injection part 60, and the opening and closing control hole 45 is provided inside the inlet 65 connected to the moving passage 61. It characterized in that the inclined surface 63 is controlled to open and close the amount is formed.

Therefore, by adjusting the screwing amount of the raw material supply control unit 50 and the injection unit 60 by rotating the raw material supply control unit 50 or the injection unit 60, the overall length of the present invention is lengthened or shortened The separation space between the opening and closing control port 45 and the inclined surface 63 of the injection unit 60 is controlled, through the adjustment of the separation space such that the opening and closing amount of the inlet 65 is adjusted through the inlet 65 Since it is possible to adjust the pressure strength of the air is ejected, even if a constant amount of air is always introduced through the air supply installation hole 30 it is possible to achieve the injection of the powder raw material smoothly.

In addition, the opening and closing control port 45 of the inner tube 40 and the opening and closing control port 45 so that the injection of the powder raw material can be made more smoothly by adjusting the opening and closing amount through the inclined surface 63 of the injection unit 60. It is preferable that the inclination portion 49 having a shape corresponding to the inclined surface 63 of the injection portion 60 is further included, and the usual packing (P) for sealing in the front inner side of the inlet (65) This is made up.

Third, the cylinder part 70 is configured to be coupled to the second coupling part 12 of the raw material supply control part 50, and consists of a cylinder body 71, a piston 73, and a rod 77. .

First, the cylinder body 71 of the cylinder portion 70 is screwed to the second coupling portion 12 to communicate with the hollow portion 13 of the body 10, the front is opened to form a hollow And, to form a male screw screwed to the second coupling portion 12 in the front for coupling with the second coupling portion (12).

And, the rear of the cylinder body 71 is configured with a normal air supply hole (71a) for operation.

In addition, the piston 73 of the cylinder portion 70 is provided in the interior of the cylinder body 71 is a conventional configuration that operates by the pressure of the air supplied in the front and rear of the cylinder body (71).

In addition, the rod 77 of the cylinder portion 70 is connected to be fixed to the piston through a coupling means such as a conventional bolt and nut, is inserted into the hollow of the inner tube 40 is slidably moved forward and backward. In front, the head 75 for opening and closing the inlet 65 of the injection unit 60 is configured.

Therefore, as shown in FIG. 4A, when air is supplied through the air supply hole 71a formed through the rear of the cylinder body 71, and pressure is formed at the rear of the piston 73, the piston 73 is moved forward. The rod 77 coupled to the piston 73 is moved forward so that the head 75 configured in front of the rod 77 protrudes forward of the inner tube 40 and at the same time packing (P). ) Is inserted into the inlet 65 is installed is sealed of the injection unit (60).

In addition, when air is supplied to the hollow of the inner tube 40 through the air supply installation hole 30 of the raw material supply control unit 50, as shown in Figure 4b or 6, the pressure in front of the piston 73 The piston 73 is formed to operate backward, the rod 77 is moved to the rear by the movement of the piston 73, the head 75 formed in front of the rod 77 is the inner tube ( At the same time as being inserted into the hollow of the 40, the head 75 is separated from the inlet 65 to open the injection unit 60.

In addition, after the inlet 65 of the injection unit 60 is opened through the above process, the air supplied to the hollow of the inner tube 40 through the air supply installation hole 30 is hollow and the rod of the inner tube 40. Since it is ejected through the space between 77 and injected into the inlet 65 of the injection unit 60, the suction path is generated in the moving passage 61 of the injection unit 60.

Therefore, the powder raw material is automatically supplied from the raw material inlet 20 of the raw material supply control unit 50 formed in the communication passage 61 to supply the powder raw material to the mold mold.

On the other hand, in the present invention, as the length of the present invention is changed according to the rotation of the raw material supply control unit 50 or the injection unit 60, as shown in Figure 5, the head 75 configured in the cylinder portion 70 It is preferable to be configured to further include a configuration for fixing to the position before the electric field is changed, such a configuration is the cylinder body 71 is screwed to the second coupling portion 12 of the raw material supply control unit 50 It can be easily achieved through screwing the tightening ring 80 to the male screw of.

This will be described in more detail as follows.

First, when the length of the electric field of the present invention is adjusted according to the rotation of the raw material supply control unit 50 or the injection unit 60, as shown in Figure 5a, the cylinder body ( 71) to adjust the amount of screw coupling with the raw material supply control unit (50).

When the rotation operation of the cylinder body 71 as described above is achieved, the electric field length changed in the rotation operation of the raw material supply control unit 50 can be made the same length as before the change, in this case, the rod coupled to the cylinder body 71 The 77 is moved forward and backward in the hollow of the inner tube 40, so that the separation distance between the head 75 of the cylinder portion 70 and the inlet 65 of the injection portion 60 is also in an initial state. The action of return also occurs at the same time.

Therefore, in this state, if the operator tightly tighten the tightening ring 80 screwed to the cylinder body 71, the tightening ring 80 is in close contact with the back of the body 10 to the raw material supply control unit 50, Since the fixed installation of the cylinder part 70 is made, the cylinder part 70 does not move even when an impact occurs, so that the distance between the inlet 65 of the injection part 60 and the head 75 is constantly maintained. Through this, the opening and closing operation of the injection unit 60 by the head 75 is easily made without a malfunction.

Hereinafter, the operation according to the preferred embodiment of the present invention will be described.

First, when air is supplied through the air supply hole 71a as shown in FIG. 4A, pressure is formed at the rear of the piston 73.

Therefore, the piston 73 is to operate forward so that the rod 77 coupled to the piston 73 slides forward from the hollow of the inner tube 40, according to the slide movement of the rod 77 The head 75 formed in front of the rod 77 protrudes forward of the inner tube 40 and is fitted to the inlet 65, and the head 75 fitted to the inlet 65 is formed at the inlet 65. Since the packing P is tightly fitted, the inlet 65 of the injection part 60 is sealed.

In order to supply the raw material to the mold in such a state, as shown in Figure 4b or 6 it is only necessary to supply air to the air supply installation hole 30 formed in the raw material supply control unit 50, the air supply installation When air is supplied through the hole 30, air is supplied to the hollow of the inner tube 40 by the through hole, so that pressure is formed in front of the piston 73, so that the piston 73 is pushed backward.

Therefore, the rod 77 fixed to the piston 73 is moved backward so that the head 75 formed in front of the rod 77 is inserted into the hollow of the inner tube 40, the head 75 is the inner tube Since the head 75 is separated from the inlet 65 in the process of being inserted into the hollow of the 40, the inlet 65 of the injection unit 60 is opened.

In addition, after opening of the inlet 65 of the injection unit 60 as described above, the piston 73 is in close contact with the rear of the cylinder body 71 and the inner tube 40 through the air supply installation hole 30. Since the air supplied to the hollow of) can no longer be supplied to the cylinder portion 70, all the air supplied to the hollow of the inner tube 40 is blown out through the space between the hollow of the inner tube 40 and the rod 77. It is injected into the inlet 65 of the injection unit 60, the suction force is generated in the moving passage 61 of the injection unit 60 in the process.

Therefore, the powder material is sucked from the raw material inlet 20 of the raw material supply control unit 50 formed in communication with the mobile passage 61, so that the powder raw material is automatically supplied to the mold mold.

On the other hand, when the supply of the powder raw material is not made smoothly, as shown in Figure 5a or 7 the operator rotates the raw material supply control unit 50 or by rotating the injection unit 60 to reduce the overall length of the present invention In this case, by adjusting the full length, the spaced space between the inclined portion 49 and the inclined surface 63 formed in the injection portion 60 of the opening and closing adjustment hole 45 formed in the inner tube 40 is adjusted. Since the pressure intensity of the air ejected through the inlet 65 of the injection unit 60 can be adjusted, even if a constant amount of air is always introduced through the air supply installation hole 30, the injection of the powder raw material can be made smoothly.

P: Packing 10: Body 11, 12: 1st, 2nd engagement part 13: Hollow part
20: Raw material input hole 30: Air supply installation hole
40: inner tube
41: male screw 45: opening and closing control 47: female thread 49: inclined portion
50: raw material supply control unit
60: injection portion 61: moving passage 63: inclined surface 65: entrance
70: cylinder 71: cylinder body 71a: air supply hole 73: piston 75: head 77: rod
80: tightening ring 100: raw material supply device of the foam molding machine

Claims (4)

Body 10 constituting the hollow portion 13 for connecting the first and second coupling portions 11 and 12 formed at the front and rear, and the raw material inlet 20 is formed on one side of the body 10 is supplied with raw materials And the air supply installation hole 30 formed in the body 10 and connected to the hollow portion 13, and the air supply installation hole 30 coupled to the hollow portion 13 of the body 10. It is in communication with the front of the raw material supply control unit 50 consisting of an inner tube 40 constituting the opening and closing control mechanism 45;
The inlet 65 is coupled to the first coupling portion 11 of the raw material supply control unit 50 to form a moving passage 61 between the inner circumference and the inner tube 40, and communicates with the moving passage 61 in front. Is formed, the injection portion 60 is formed on the inner side of the inlet (65) connected to the movement passage (61) is formed with an inclined surface (63) to control the opening and closing amount by the opening and closing control (45);
A cylinder body 71 coupled to the second coupling part 12 of the raw material supply control unit 50 to communicate with the hollow part 13 of the body 10, and inside the cylinder body 71. Cylinder portion consisting of a piston (73) to be installed, and a rod (77) connected to the piston (73) and moved through a hollow of the inner tube (40) and forming a head (75) for opening and closing the injection portion (60). (70); The raw material supply apparatus of the foam molding machine characterized in that consisting of.
According to claim 1, wherein the male screw 41 is formed at the end of the inner tube 40 formed in the raw material supply control unit 50, the opening and closing adjustment hole 45 is a female screw corresponding to the male screw 41. ) Is formed and the opening and closing control unit 45 is a raw material supply device of the foam molding machine characterized in that the screw is coupled to the inner tube (40).
The raw material supply apparatus of the foam molding machine according to claim 1 or 2, wherein an inclined portion (49) corresponding to the inclined surface (63) of the injection portion (60) is formed at an outer diameter of the opening and closing control opening (45).
According to claim 1, The cylinder body 71 is screwed to the second coupling portion 12 of the raw material supply control unit 50 is screwed to the cylinder body 71 to the raw material supply control unit 50 Fastening ring 80 in close contact; the raw material supply device of the foam molding machine characterized in that the configuration further comprises.

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